Method of and system for improving accuracy in a speech recognition system

ABSTRACT

A method for transcribing an audio response includes: A. constructing an application including a plurality of queries and a set of expected responses for each query, the set including a plurality of expected responses to each query in a textual form; B. posing each of the queries to a respondent with a querying device; C. receiving an audio response to each query from the respondent; D. performing a speech recognition function on each audio response with an automatic speech recognition device to transcribe each audio response to a textual response to each query; E. recording each audio response with a recording device; and F. comparing, with the automatic speech recognition device, each textual response to the set of expected responses for each corresponding query to determine if each textual response corresponds to any of the expected responses in the set of expected responses for the corresponding query.

CROSS REFERENCES TO RELATED APPLICATIONS

The present application is a continuation of U.S. application Ser. No.09/918,733 filed 31 Jul. 2001, now U.S. Pat. No. 7,624,010, which claimspriority under 35 U.S.C. §119 (e) of U.S. Provisional Patent ApplicationNo. 60/221,737 filed 31 Jul. 2000; the entire contents of all of whichapplications are incorporated herein by reference.

FIELD OF THE INVENTION

The present invention relates generally to a method of and system forimproving accuracy in a speech recognition system and more particularlyto a method of and system for simultaneously recording response phraseswhich are undergoing a speech recognition process for later review.

BACKGROUND OF THE INVENTION

In the new, connected economy, it has become increasingly important forcompanies or service providers to become more in tune with their clientsand customers. Such contact can be facilitated with automated telephonictransaction systems, in which interactively-generated prompts are playedin the context of a telephone transaction, and the replies of a humanuser are recognized by an automatic speech recognition system. Theanswers given by the respondent are processed by the system in order toconvert the spoken words to meaning, which can then be utilizedinteractively, or stored in a database.

In order for a computer system to recognize the words that are spokenand convert these words to text, the system must be programmed tophonetically break down the words and convert portions of the words totheir textural equivalents. Such a conversion requires an understandingof the components of speech and the formation of the spoken word. Theproduction of speech generates a complex series of rapidly changingacoustic pressure waveforms. These waveforms comprise the basic buildingblocks of speech, known as phonemes. Vowel and consonant sounds are madeup of phonemes and have many different characteristics, depending onwhich components of human speech are used. The position of a phoneme ina word has a significant effect on the ultimate sound generated. Aspoken word can have several meanings, depending on how it is said.Speech scientists have identified allophones as acoustic variants ofphonemes and use them to more explicitly define how a particular word isformed.

While there are several distinct methods for analyzing the spoken wordand extracting the information necessary to enable the recognitionsystem to convert the speech to word-strings, including Hidden Markovmodeling and neural networks, these methods generally perform similaroperations. The differences in these methods are typically in the mannerin which the system determines how to break the phonetic signal intoportions that define phonemes. Generally, a speech recognition systemfirst converts an incoming analog voice signal into a digital signal.The second step is called feature extraction, wherein the systemanalyzes the digital signal to identify the acoustic properties of thedigitized signal. Feature extraction generally breaks the voice downinto its individual sound components. Conventional techniques forperforming feature extraction include subband coding Fast FourierTransforms and Linear Predictive Coding. Once the signal has beenanalyzed, the system then determines where distinct acoustic regionsoccur. The goal of this step is to divide the acoustic signal intoregions that will be identified as phonemes which can be converted to atextual format. In isolated word systems, this process is simplified,because there is a pause after each word. In continuous speech systems,however, this process is much more difficult, since there typically areno breaks between words in the acoustic stream. Accordingly, the systemmust be able not only to break the words themselves into distinctacoustic regions, but must also be able to separate consecutive words inthe stream. It is in this step that conventional methods such as HiddenMarkov modeling and neural networks are used. The final step involvescomparing a specific acoustic region, as determined in the previousstep, to a known set of templates in a database in order to determinethe word or word portion represented by the acoustic signal region. If amatch is found, the resulting textual word is output from the system. Ifone is not, the signal can either be dynamically manipulated in order toincrease the chances of finding a match, or the data can be discardedand the system prompted to repeat the query to the respondent, if theassociated answer cannot be determined due to the loss of the data.

Many factors can adversely affect the accuracy of a speech recognitionsystem, including the use of slang, regional dialects and accents,speech impediments, poor telephone connections and background noise. Inmany cases, even the most advanced speech recognition system will not beable to process such speech, and thus the loss of data is inevitable.One approach to this problem has been to limit the functionality of thespeech recognition application. In this case, the users of the systemmust be trained to accommodate themselves to the limitations imposed bythe system (e.g., state only a limited set of word replies). An extremeexample of such a limited system is one in which the only responserecognized by the system is a simple word or key stroke on thetelephone, for example the prompt “Press or say one.” At the otherextreme is a system in which a human monitors the automatic speechrecognition transaction for correctness. However, such a system defeatsthe entire purpose of an automated system, which is generally intendedto reduce costs.

SUMMARY OF THE INVENTION

The present invention is directed to a method of and system forimproving the accuracy of speech recognition systems by simultaneouslyrecording audio response phrases as the phrases are being processed bythe speech recognition system. If a predetermined confidence parameterin the recognition is reached, meaning that the particular word orphrase has been properly recognized by the system, the recorded phraseis not needed. However, if the audio response is not properlyrecognized, the recorded phrase is saved for human review at a latertime. This system increases the accuracy of the speech recognitionsystem without substantially increasing the cost of the system due tothe need for human review, since only the phrases which are not properlyrecognized need be selectively reviewed.

According to one aspect of the invention, a speech recognition systemincludes a querying device for posing, preferably in the form of anaudio prompt, at least one query to a respondent, a speech recognitiondevice which receives an audio response from the respondent andtranscribes the audio response to produce a corresponding text-basedresponse, and a storage device for storing the audio response as it isreceived by the speech recognition device.

The speech recognition system may further include an accuracydetermination device for comparing the text response to a text set ofexpected responses and determining whether the text response correspondsto one of the expected responses. If the accuracy determination devicedetermines that the text response does not correspond to one of theexpected responses within a predetermined accuracy confidence parameter,the accuracy determination device may flag the audio response forfurther review. The speech recognition system may further include ahuman interface device for enabling a human operator to view the atleast one query and to hear the audio response that corresponds to theat least one query. The human interface device may include a personalcomputer including a monitor for enabling the operator to view the atleast one query and an audio speaker device for enabling the operator tolisten to the audio response. The querying device may include a programhaving an application file, including code which causes the at least onequery to be posed to the respondent, a list of expected responses and anaddress at which a file containing the received audio response will bestored in the storage device. The human interface device may include agraphical user interface on which the operator views the at least onequery and the text set of expected responses wherein, after listening tothe audio response, the operator is able to select one of the expectedresponses from the text set of expected responses. The graphical userinterface may include an application navigation window for enabling theoperator to navigate through the at least one query, an audio navigationwindow for enabling the operator to control playback of the audioresponse and a text entry window which enables the operator to enter atext response if none of the expected responses from the text set ofexpected responses corresponds to the audio response.

According to another embodiment of the invention, a speech recognitionsystem includes a querying device for posing at least one query to arespondent, a speech recognition device which receives an audio responsefrom the respondent and transcribes the audio response to produce acorresponding text response, a storage device for storing the audioresponse as it is received by the speech recognition device and anaccuracy determination device for comparing the text response to a textset of expected responses and determining whether the text responsecorresponds to one of the expected responses.

If the accuracy determination device determines that the text responsedoes not correspond to one of the expected responses within apredetermined accuracy confidence parameter, the accuracy determinationdevice may flag the audio response for further review. The speechrecognition system may further include a human interface device forenabling a human operator to view the at least one query and to hear theaudio response that corresponds to the at least one query. The humaninterface device may include a personal computer including a monitor forenabling the operator to view the at least one query and an audiospeaker device for enabling the operator to listen to the audioresponse. The querying device may include a program having anapplication file, the application file including code which causes theat least one query to be posed to the respondent, a list of expectedresponses and an address at which a file containing the received audioresponse will be stored in the storage device. The human interfacedevice may include a graphical user interface on which the operatorviews the at least one query and the text set of expected responseswherein, after listening to the audio response, the operator is able toselect one of the expected responses from the text set of expectedresponses. The graphical user interface may include an applicationnavigation window for enabling the operator to navigate through the atleast one query, an audio navigation window for enabling the operator tocontrol playback of the audio response and a text entry window whichenables the operator to enter a text response if none of the expectedresponses from the text set of expected responses corresponds to theaudio response.

According to another embodiment of the invention, a method fortranscribing an audio response includes:

-   -   A. posing a query to a respondent;    -   B. receiving an audio response from the respondent;    -   C. performing a speech recognition function on the audio        response to transcribe the audio response to a textual response;    -   D. recording the audio response;    -   E. comparing the textual response to a set of expected responses        to the query, the set including a plurality of expected        responses to the query in a textual form; and    -   F. flagging the audio response if the corresponding textual        response does not correspond to one of the expected responses in        the set of expected responses.

The method may further include the steps of:

-   -   G. listening to the audio response; and    -   H. selecting, from the set of expected responses, a textual        response that corresponds to the audio response.

The method may further include the steps of:

-   -   G. listening to the audio response; and    -   H. manually transcribing a textual response that corresponds to        the audio response.

According to yet another embodiment of the invention, a method fortranscribing an audio response includes:

-   -   A. constructing an application including a plurality of queries        and a set of expected responses for each query, the set        including a plurality of expected responses to each query in a        textual form;    -   B. posing each of the queries to a respondent;    -   C. receiving an audio response to each query from the        respondent;    -   D. performing a speech recognition function on each audio        response to transcribe each audio response to a textual response        to each query;    -   E. recording each audio response; and    -   F. comparing each textual response to the set of expected        responses for each corresponding query to determine if each        textual response corresponds to any of the expected responses in        the set of expected responses for the corresponding query.

The method may further include flagging each audio responsecorresponding to a textual response that does not correspond to one ofthe expected responses in the set of expected responses to thecorresponding query. The method may further include reviewing eachflagged audio response to determine if a corresponding expected responseis included in the set of expected responses for the query associatedwith each audio response. The method may further include selecting, froman associated set of expected responses for each query, a response thatcorresponds to the flagged audio response and manually transcribing aresponse that corresponds to each flagged audio response.

According to yet another aspect of the invention, a method fortranscribing an audio response comprising:

-   -   A. constructing a speech recognition application including a        plurality of queries and a set of expected responses for each        query, the set including a plurality of expected responses to        each query in a textual form;    -   B. posing each of the queries to a respondent with a querying        device;    -   C. receiving an audio response to each query from the        respondent;    -   D. performing a speech recognition function on each audio        response with an automatic speech recognition device to        transcribe each audio response to a textual response to each        query;    -   E. recording each audio response with a recording device; and    -   F. comparing, with the automatic speech recognition device, each        textual response to the set of expected responses for each        corresponding query to determine if each textual response        corresponds to any of the expected responses in the set of        expected responses for the corresponding query.

BRIEF DESCRIPTION OF THE DRAWINGS

The foregoing and other objects of this invention, the various featuresthereof, as well as the invention itself may be more fully understoodfrom the following description when read together with the accompanyingdrawings in which:

FIG. 1 is a schematic block diagram of the system for improving theaccuracy of a speech recognition system in accordance with the presentinvention;

FIG. 2 is a flow diagram of the method for improving the accuracy of aspeech recognition system in accordance with the present invention; and

FIG. 3 is a diagram of a graphical user interface display associatedwith the human interface device of the system for improving the accuracyof a speech recognition system in accordance with the present invention.

DETAILED DESCRIPTION

The present invention is directed to a speech recognition system whichsimultaneously performs a speech recognition process on receivedresponses to queries and records the responses. As the responses areprocessed and converted from audio form to text, they are analyzed todetermine if they meet a predetermined recognition confidence parameter.If the text form of the response meets the confidence parameter, meaningthat the system has properly recognized and converted the audio responseto the corresponding text response, the systems continues with the nextquery. If the system determines that the converted text phrase does notmeet the confidence parameter, the query and the recorded audio responseare flagged for human review at a later time.

FIG. 1 is a schematic block diagram of the system 10 for improving theaccuracy of a speech recognition system in accordance with the presentinvention. System 10 includes a querying device 12, a speech recognitiondevice 14, an accuracy determination device 16, a storage device 18 anda human interface device 20. Preferably, the system 10 is a personalcomputer such as an IBM PC or IBM PC compatible system or an APPLEMacINTOSH system or a more advanced computer system such as anAlpha-based computer system available from Compaq Computer Corporationor SPARC Station computer system available from SUN MicrosystemsCorporation, although a main frame computer system can also be used. Insuch a system, all of the components of the system will reside on thecomputer system, thus enabling the system to independently process datareceived from a respondent in the manner described below. Alternatively,the components may be included in different systems that have access toeach other via a LAN or similar network. For example, the system mayinclude a plurality of human interface devices 20, each comprising apersonal computer having access to memory associated with one or morestorage devices 18. The querying device 12 may reside on a server systemwhich receives the audio response from the respondent and transmits theresponse to the speech recognition device 14 and to memory associatedwith the storage device 18.

The system 10 may also include a network interface that facilitatesreceipt of audio information by any of a variety of a networks, such astelephone networks, cellular telephone networks, the Web, Internet,local area networks (LANs), wide area networks (WANs), private networks,virtual private networks (VPNs), intranets, extranets, wirelessnetworks, and the like, or some combination thereof. The system 10 maybe accessible by any one or more of a variety of input devices 22capable of communicating audio information. Such devices 22 may include,but are not limited to, a standard telephone (including cellulartelephones), a laptop computer, or a desktop computer, as well as otheraudio enabled devices (e.g., personal digital assistants, audioreceivers, and application servers).

Querying device 12 is an automated system on which a speech recognitionapplication, including a series of acoustic outputs called prompts,which comprise queries about a particular topic, are programmed so thatthey can be presented to a respondent, preferably by means of atelephonic interaction between the querying party and the respondent.However, a speech recognition application may be any interactiveapplication that collects, provides, and/or shares information. Asexamples, in the present invention, a speech application may be any of agroup of interactive applications, including consumer surveyapplications; Web access applications; educational applications,including computer-based learning and lesson applications and testingapplications; screening applications; consumer preference monitoringapplications; compliance applications, including applications thatgenerate notifications of compliance related activities, includingnotifications regarding product maintenance; test result applications,including applications that provide at least one of standardized testsresults, consumer product test results, and maintenance results; andlinking applications, including applications that link two or more ofthe above applications.

In the preferred embodiment, each speech recognition applicationincludes an application file programmed into the querying device. Eachapplication file includes code which causes the audio prompt to beplayed to the respondent, a list of expected responses and an address atwhich a file containing the received audio response will be stored inthe storage device 18.

Preferably, the series of queries that make up the application isdesigned to obtain specific information from the respondents to aid incustomer or consumer service, education and research and development ofparticular products or services or other functions. For example, aparticular speech application could be designed to ask respondentsspecific queries about a particular product or service. The entity thatissues the application may then use this information to further developthe particular product or service.

The operation of the system 10 will be described with reference to flowdiagram 30, FIG. 2, which shows the steps involved in the operation ofthe system 10. After each prompt is issued by the querying device, step32, the speech recognition device 14 receives the spoken, audio responsefrom the respondent via input device 22, such as a telephone, andprocesses the audio response with a speech recognition algorithm toconvert the spoken audio response to a text response, step 34.

While any type of speech recognition algorithm may be used in thepresent invention, speech recognition device 14 preferably performssyntactic and semantic processing using a rich semantic grammar (RSG)database (DB), which provides a source of word and grammar knowledgeused to interpret the phonetic data. The grammars applied to a certainphonetic stream will vary depending on the expected response, which istypically a function of a prior prompt. The RSG DB includes a databaseof words and grammar rules related to the words, that is, including bothsyntactic and semantic data. The relationships include algorithms forcombining words into meaningful phrases according to a given context.The RSG serves as a common, root grammar for the syntactic and semanticprocessing, which may each use its own representation of the RSG for itsrespective processing tasks. As a result, compatibility is ensured,since the semantic stages of processing will never receive an illegalword string, for example, from the syntactic processing stage.Additionally, to achieve greater efficiency, when multiple semanticphrases have the same syntax, a collapsed representation of the RSG canbe used for searching.

The grammars of the RSG DB are organized as a tree of classes, as nodes,that represent words and phrase structures. A grammar tree may include aplurality of trees (or sub-trees). Generally, the RSG DB iscontext-free, because the rules applied to each sub-tree operateindependently of the other parts of the tree. That is, each class (ornode) includes rich semantic information (e.g., a semantic description)and a syntactic description. For purposes of syntactic searching andanalysis, the RSG DB is represented as an optimized context free grammar(CFG) DB, where the grammars do not include the semantic information,but rather only include syntax information used to generate word lists.This stripped down version of the RSG DB allows for more efficientsyntactic analysis.

System 10, in addition to processing the received audio response,records the response and stores it in recording device 18, step 36. Instep 38, the accuracy determination device 16 analyzes the textresponse. Preferably, this is done by comparing the converted textresponse to a number of expected responses to the particular query. Asset forth above, the application is typically specific to a particulartopic such that each query will have an expected range of properresponses. For example, if a query asked what feature of a particularproduct a consumer was interested in, the response would be expected tobe one of a number of common features for that product. If the system 10determines that the converted text response matches one of the expectedresponses and therefore meets the confidence parameter for that query,step 40, the system determines whether further queries remain in theapplication, step 42. If there are, the method returns to step 32 andposes the next query to the respondent.

If, in step 40, the accuracy determining device 16 determines that theaccuracy of the converted text response does not meet the confidenceparameter, the response and its associated query are flagged, step 44,for human review at some time in the future. The level of accuracyrequired will depend on the type of queries being asked. Queries towhich simple “yes” or “no” answers are expected will not require thesame amount of accuracy needed for more complex responses. Therefore,responses which are expected to be more complex, for example, serviceexperiences of a particular consumer respondent, perceptions of therespondent of a particular product, etc., require higher accuracy in theconversion from audio form to text form and therefore must meet higherconfidence parameters in order not to be flagged in step 44. If furtherqueries remain in the application, step 42, the method returns to step32 and poses the next query to the respondent. If there are no furtherqueries, human review of the responses recorded during the applicationbegins, step 46.

FIG. 3 is a diagram of a graphical user interface display 50 associatedwith the human interface device 20 of the system 10, which is utilizedby a human operator to review the queries and responses in anapplication. As set forth above, as each application is conducted, it issaved on storage device 18 of system 10. A human operator is then ableto review each application to insure that the speech recognition device14 has properly processed each received audio response and converted theaudio response to a corresponding text response. As set forth above,human interface device 20 typically includes a personal computer havingaccess to the storage device 18. Human interface device 20 also includesaudio speakers which enable the human operator to listen to the audioresponses received during the application being reviewed. As shown inthe figure, display 50 provides information to the human operatorregarding the application which enables the operator to review eachquery in an application and its corresponding response.

Display 50 includes an application information window 52 which providesinformation about a response set of the application being reviewed. Suchinformation includes the number of a response set as part of the totalnumber of response sets for the particular application being reviewed.In this example, the response set being reviewed is response set number2 of 4 total response sets of a particular application. Window 52includes the date and time that the application was completed and anavigation bar 54 which enables the operator to navigate through theresponse sets of the application. Window 52 also includes a notesportion 56 which enables the operator to enter any notes about theapplication response set and/or the respondent. Query navigation window58 indicates which query is being reviewed, the text of which is shownat 60. Query navigation window 58 enables the operator to navigateforward and backward through the queries in the application. Audionavigation window 62 enables the operator to control the playback of theresponses.

In step 46, FIG. 2, of the present invention, the operator connects tothe storage device 18 with the human interface device 20 via thenetwork, as described above. The operator can then download anapplication response file from the storage device 18 for review. As setforth above, each application includes a number of queries and an audioresponse associated with each query. The response file that isdownloaded to the human interface device contains both the text versionof each query in the application and an audio file that includes therespondent's response to each query. The response file also includes theset of expected responses associated with each query. The operator canthen navigate through the queries, view each query, and listen to theaudio response associated with the query. As set forth above, if thetext form of the audio response, as processed by the speech recognitiondevice 14, does not meet the predetermined accuracy confidenceparameter, the query and its response are flagged for later review.

In the example shown in FIG. 3, Query 4 of an example application, is“Please tell us what product you would like information about?”, asindicated at 60. Along with the query 60, the operator is presented withthe set of expected responses in window 66. Window 66 also includes abox 68 into which the correct response may be manually input by theoperator. After reading the query, the operator clicks on the “Play”button 64 to hear the audio response given by the respondent. Uponhearing and determining the response spoken by the respondent, theoperator can either select one of the expected responses with a mouseclick, or the operator can type the response into box 68, step 48, FIG.2. If the operator desires to repeat the audio response, audionavigation window 62 may be used to replay all or a portion of theresponse. Typically, the response given by the respondent is not in theexact form of one of the expected responses. For example, in response tothe query shown in FIG. 3, the respondent might say, “Well, I'minterested in refrigerators.” Even if the speech recognition device 14correctly transcribes the response, it is unlikely that the accuracydetermination device 16 will be able to match the converted textresponse with one of the expected responses. In such a scenario, theoperator will, after listening to the response, select “home appliances”from the expected responses box 66. If the operator determines that theresponse given by the respondent is not included in the expectedresponse window 66, he or she can manually type the response into box68, if the response is intelligible and relevant. The operator wouldthen select the next query via navigation window 58.

If, for a particular query, the accuracy determination device determinedthat the converted text response matched one of the expected responsesand therefore that the accuracy confidence parameter was met, step 40,FIG. 2, the query will not have been flagged in step 44. Accordingly,the query appears at 60 in display 50, but the expected response window66 is inactive, thus preventing the operator from selecting a differentresponse from that which was received and converted by speechrecognition device 14. Alternatively, the system can be configured suchthat any unflagged queries are not presented to the operator for review.

In an alternative embodiment, rather than keeping every audio responsereceived stored in the storage device 18 and flagging responses thatrequire review, the system may, after determining that a converted textresponse meets the accuracy confidence parameter, delete thecorresponding audio response from the storage device 18. During thereview process, the operator is only presented with the responses thatrequire further review, as determined by the accuracy determinationdevice 16. Furthermore, the system can be programmed to record onlycertain ones of the received responses. If the expected response to aquery is either “yes” or “no”, or some other response which the speechrecognition device can easily and correctly transcribe, the system canbe programmed such that the response is processed and transcribed by thespeech recognition device 14, but not recorded and stored in storagedevice 18. This enables the system to reduce the amount of memoryrequired to conduct the application.

In yet another embodiment, the system can process the audio responsewith the speech recognition device 14 before it is recorded and, if theaccuracy determination 16 device determines that the transcribed textresponse output by the speech recognition device 14 does not meet theaccuracy confidence parameter, the querying device 12 can be prompted torepeat the query. When the respondent repeats his or her response, theresponse is recorded and stored in storage device 18. The response isprocessed again by the speech recognition device 14 and, if the accuracydetermination device determines that the response still does not meet orexceed the accuracy confidence parameter, the response is flagged forfurther review. This embodiment further reduces the amount of memoryrequired by only recording responses that require further review by ahuman operator.

While the preferred embodiment is described as a telephonic system, itwill be understood that the invention is not limited to telephonicapplications and may be utilized in any situation in which accuracy in aspeech recognition system is critical. For example, the system 10 may beutilized for dictation, in which a user speaks into input device 22,which, in this example, may be a microphone. As the user speaks into themicrophone and the audio signal is input to the speech recognitiondevice for processing and transcription, the audio signal issimultaneously stored in storage device 18 for future review. After thedictation is complete, the user reviews the transcribed text produced bythe speech recognition device. If any portion of the dictation was notproperly transcribed by the speech recognition device 14, the user canreview the stored audio signal that corresponds to the incorrect portionand make any necessary corrections.

Accordingly, the present invention provides a system which increases theaccuracy of speech recognition applications. Since each audio responsereceived from a respondent is simultaneously processed to convert theresponse from an audio form to a text form and recorded, if the systemdetermines that a particular response does not meet a predeterminedaccuracy confidence threshold, the response is flagged for review by ahuman operator at a later time. During the review, the operator, withthe aid of a human interface device, is able to view the queries of theapplication and listen to the audio form of the corresponding responses.The operator can then select from a group of expected responses, ormanually input a response to the system that corresponds with the audioresponse given by the respondent.

The invention may be embodied in other specific forms without departingfrom the spirit or essential characteristics thereof. The presentembodiments are therefore to be considered in respects as illustrativeand not restrictive, the scope of the invention being indicated by theappended claims rather than by the foregoing description, and allchanges which come within the meaning and range of the equivalency ofthe claims are therefore intended to be embraced therein.

The invention claimed is:
 1. A speech recognition system comprising: aquerying device for posing at least one query to a respondent; a speechrecognition device including a speak recognition application whichreceives an audio response from said respondent and transcribes saidaudio response to produce a corresponding text response, wherein thespeech recognition device is operative to conduct a speaker-independentspeech recognition analysis of said audio response, wherein the speechrecognition device comprises means for processing of an acoustic filethat is tied to database information resulting from the speechrecognition application that audibly plays the acoustic file whilepresenting a screen to a transcriber for transcription and correction ofthe database information; a storage device for storing said audioresponse as it is received by said speech recognition device; and anaccuracy determination device operative to compare said text response toa text set of expected responses and to determine whether said textresponse corresponds to one of said expected responses, wherein saidaccuracy determination device is operative to determine whether saidtext response does correspond to one of said expected responses within apredetermined accuracy confidence parameter, and flag said audioresponse for further review if said response does not correspond to oneof said expected responses within the predetermined accuracy confidenceparameter.
 2. The speech recognition system of claim 1 furthercomprising a human interface device for enabling a human operator toview said at least one query and to hear said audio response thatcorresponds to said at least one query.
 3. The speech recognition systemof claim 2 wherein said human interface device comprises a personalcomputer including a monitor for enabling the operator to view said atleast one query and an audio speaker device for enabling the operator tolisten to said audio response.
 4. The speech recognition system of claim2 wherein said querying device includes a program having an applicationfile, said application file including code which causes the at least onequery to be posed to the respondent, a list of expected responses and anaddress at which a file containing the received audio response will bestored in the storage device.
 5. The speech recognition system of claim3 wherein said querying device includes a program having an applicationfile, said application file including code which causes the at least onequery to be posed to the respondent, a list of expected responses and anaddress at which a file containing the received audio response will bestored in the storage device.
 6. The speech recognition system of claim2 wherein said human interface device includes a graphical userinterface on which the operator views said at least one query and saidtext set of expected responses wherein, after listening to said audioresponse, the operator is able to select one of said expected responsesfrom said text set of expected responses.
 7. The speech recognitionsystem of claim 5 wherein said human interface device includes agraphical user interface on which the operator views said at least onequery and said text set of expected responses wherein, after listeningto said audio response, the operator is able to select one of saidexpected responses from said text set of expected responses.
 8. Thespeech recognition system of claim 5 wherein said graphical userinterface comprises an application navigation window for enabling theoperator to navigate through said at least one query, and an audionavigation window for enabling the operator to control playback of saidaudio response.
 9. The speech recognition system of claim 7 wherein saidgraphical user interface comprises an application navigation window forenabling the operator to navigate through said at least one query, andan audio navigation window for enabling the operator to control playbackof said audio response.
 10. The speech recognition system of claim 5wherein said graphical user interface includes a text entry window whichenables the operator to enter a text response if none of said expectedresponses from said text set of expected responses corresponds to saidaudio response.
 11. The speech recognition system of claim 9 whereinsaid graphical user interface includes a text entry window which enablesthe operator to enter a text response if none of said expected responsesfrom said text set of expected responses corresponds to said audioresponse.
 12. A speech recognition system comprising: a querying devicefor posing at least one query to a respondent; a speech recognitiondevice including a speech recognition application which receives anaudio response from said respondent and transcribes said audio responseto produce a corresponding text response, wherein the speech recognitiondevice is operative to conduct a speaker-independent speech recognitionanalysis of said audio response, wherein the speech recognition devicecomprises means for processing of an acoustic file that is tied todatabase information resulting from the speech recognition applicationthat audibly plays the acoustic file while presenting a screen to atranscriber for transcription and correction of the databaseinformation; a storage device for storing said audio response as it isreceived by said speech recognition device; and an accuracydetermination device for comparing said text response to a text set ofexpected responses and determining whether said text responsecorresponds to one of said expected responses; wherein, if said accuracydetermination device determines that said text response does notcorrespond to one of said expected responses within a predeterminedaccuracy confidence parameter, said accuracy determination device flagssaid audio response for further review by a user.
 13. The speechrecognition system of claim 12 further comprising a human interfacedevice for enabling a human operator to view said at least one query andto hear said audio response that corresponds to said at least one query.14. The speech recognition system of claim 13 wherein said humaninterface device comprises a personal computer including a monitor forenabling the operator to view said at least one query and an audiospeaker device for enabling the operator to listen to said audioresponse.
 15. The speech recognition system of claim 13 wherein saidquerying device includes a program having an application file, saidapplication file including code which causes the at least one query tobe posed to the respondent, a list of expected responses and an addressat which a file containing the received audio response will be stored inthe storage device.
 16. The speech recognition system of claim 14wherein said querying device includes a program having an applicationfile, said application file including code which causes the at least onequery to be posed to the respondent, a list of expected responses and anaddress at which a file containing the received audio response will bestored in the storage device.
 17. The speech recognition system of claim13 wherein said human interface device includes a graphical userinterface on which the operator views said at least one query and saidtext set of expected responses wherein, after listening to said audioresponse, the operator is able to select one of said expected responsesfrom said text set of expected responses.
 18. The speech recognitionsystem of claim 16 wherein said human interface device includes agraphical user interface on which the operator views said at least onequery and said text set of expected responses wherein, after listeningto said audio response, the operator is able to select one of saidexpected responses from said text set of expected responses.
 19. Thespeech recognition system of claim 16 wherein said graphical userinterface comprises an application navigation window for enabling theoperator to navigate through said at least one query, and an audionavigation window for enabling the operator to control playback of saidaudio response.
 20. The speech recognition system of claim 18 whereinsaid graphical user interface comprises an application navigation windowfor enabling the operator to navigate through said at least one query,and an audio navigation window for enabling the operator to controlplayback of said audio response.
 21. The speech recognition system ofclaim 16 wherein said graphical user interface includes a text entrywindow which enables the operator to enter a text response if none ofsaid expected responses from said text set of expected responsescorresponds to said audio response.
 22. The speech recognition system ofclaim 20 wherein said graphical user interface includes a text entrywindow which enables the operator to enter a text response if none ofsaid expected responses from said text set of expected responsescorresponds to said audio response.
 23. A method for transcribing anaudio response by using a speech recognition device comprising means forprocessing of an acoustic file that is tied to database informationresulting from a speech recognition application that audibly plays theacoustic file while presenting a screen to a transcriber fortranscription and correction of the database information, the methodcomprising: A. posing a query to a respondent; B. receiving an audioresponse from said respondent; C. performing a speaker-independentspeech recognition analysis on said audio response to transcribe saidaudio response to a textual response; D. recording said audio response;E. comparing said textual response to a set of expected responses tosaid query, said set including a plurality of expected responses to saidquery in a textual form; and F. flagging said audio response for furtherreview by a user, if the corresponding textual response does notcorrespond to one of said expected responses in said set of expectedresponses.
 24. The method of claim 23 further comprising; G. listeningto said audio response; and H. selecting, from said set of expectedresponses, a textual response that corresponds to said audio response.25. The method of claim 23 further comprising: G. listening to saidaudio response; and H. manually transcribing a textual response thatcorresponds to said audio response.
 26. A method for transcribing anaudio response by using a speech recognition device comprising means forprocessing of an acoustic file that is tied to database informationresulting from a speech recognition application that audibly plays theacoustic file while presenting a screen to a transcriber fortranscription and correction of the database information, the methodcomprising: A. constructing a speaker-independent speech recognitionapplication including a plurality of queries and a set of expectedresponses for each query, said set including a plurality of expectedresponses to each query in a textual form; B. posing each of saidqueries to a respondent; C. receiving an audio response to each queryfrom said respondent; D. performing a speech recognition function oneach said audio response to transcribe each said audio response to atextual response to each query; E. recording each audio response; F.comparing each textual response to said set of expected responses foreach corresponding query to determine if each textual responsecorresponds to any of said expected responses in said set of expectedresponses for the corresponding query; and G. for further review by auser, flagging each audio response corresponding to a textual responsethat does not correspond to one of said expected responses in said setof expected responses to the corresponding query.
 27. The method ofclaim 26 further comprising: H. reviewing each flagged audio response todetermine if a corresponding expected response is included in said setof expected responses for the query associated with each audio response.28. The method of claim 27 further comprising selecting, from anassociated set of expected responses for each query, a response thatcorresponds to said flagged audio response.
 29. The method of claim 27further comprising manually transcribing a response that corresponds toeach flagged audio response.
 30. A method for transcribing an audioresponse by using a speech recognition device comprising means forprocessing of an acoustic file that is tied to database informationresulting from a speech recognition application that audibly plays theacoustic file while presenting a screen to a transcriber fortranscription and correction of the database information, the methodcomprising: A. constructing a speaker-independent speech recognitionapplication including a plurality of queries and a set of expectedresponses for each query, said set including a plurality of expectedresponses to each query in a textual form; B. posing each of saidqueries to a respondent with a querying device; C. receiving an audioresponse to each query from said respondent; D. performing a speechrecognition function on each said audio response with an automaticspeech recognition device to transcribe each said audio response to atextual response to each query; E. recording each audio response with arecording device; F. comparing, with said automatic speech recognitiondevice, each textual response to said set of expected responses for eachcorresponding query to determine if each textual response corresponds toany of said expected responses in said set of expected responses for thecorresponding query; and G. for further review by a user, flagging eachaudio response corresponding to a textual response that does notcorrespond to one of said expected responses in said set of expectedresponses to the corresponding query.
 31. The method of claim 30 furthercomprising: H. reviewing each flagged audio response with a humaninterface device to determine if a corresponding textual response isincluded in said set of expected responses for the query associated witheach audio response.